Tertiary filtering arrangement

ABSTRACT

An apparatus for filtering liquids containing suspended solids is disclosed which includes a filter element and a scraper for cleaning the filter as the suspended solids collect on the surface thereof. The scraper is apertured to permit the collected debris to enter within the scraper and the inside of the scraper is connected to a ventable line. The pressure developed by the cleaned liquid on the inside of the filter suffices when the ventable connection is made to force the cleaned water back through the filter thereby flushing off the debris from the outside of the filter and causing it to enter the inside of the scraper and pass through the ventable line thereby cleaning the outside of the filter.

United States Patent Boorujy 1 Mar. 27, 1973 541 TERTIARY FILTERING 2,046,845 7/1936 Raisch ..210 75 x RR M N 3,037,635 6/1962 Boorudr ..210 75 x [76] lnventorz' Salem Boorujy, 22 Carmine St.,

Chatham, NJ. 07928 [22] Filed: Dec. 28, 1970 [21] Appl. No.: 102,104

Related U.S. Application Data [62] Division of Ser. No. 855,626, Sept. 5, 1969, Pat. No.

[52] U.S. Cl. ..210/108, 210/408, 210/414 [51] Int. Cl. ..B01d 29/38 [58] Field of Search ..2l0/75,408,41l,413,4l4, 210/108 [56] References Cited UNITED STATES PATENTS 2,066,479 1/1937 Maclsaac ..21OI414 X 1,651,866 12/1927 Bowers ..210/413 X To DiGESTiNG TANK Primary Examiner-John Adee Attorney-Howard R. Popper [57] ABSTRACT An apparatus for filtering liquids containing suspended solids is disclosed which includes a filter element and a scraper for cleaning the filter as'the suspended solids collect on the surface thereof. The scraper is apertured to permit the collected debris to enter within the scraper and the inside of the scraper is connected to a veritable line. The pressure developed by the cleaned liquid on the inside of the filter suffices when the ventable connection is made to force the cleaned water back through the filter thereby flushing off the debris from the outside of the filter and causing it to enter the inside of the scraper and pass through the veritable line thereby cleaning the outside of the filter.

1 Claim, 1 Drawing Figure DISC SW STARTER WI W-I I I Hi I lill PROPORTIONATOR 2e 3 Ill I STARTER v H *T PATENTEDHARZY 197a ELDISC CONTR SW PANEL To DIGESTING TANK TERTIARY FILTERING ARRANGEMENT This application is a division of patent application, Ser. No. 855,626, filed Sept. 5, 1969 now U.S. Pat. No. 3,574,098.

BACKGROUND OF THE INVENTION This invention relates to the purification of water, and more particularly, to a process and apparatus applicable to the third or tertiary stage of the purification procedures employed in rendering sewer effluent suitable for discharge into rivers and streams without polluting the same.

The purification of sewer water may encompass three stages, the first or primary of which involves the use of a settling tank or basin which allows solid matter and large particles to settle out. The secondary stage employs a trickling filter in the nature of a stone, sand, or plastic particle bed which captures smaller particles carried in the effluent. After passing through the secondary filtration beds, sewer water is still not suitable for discharge into rivers and streams because of the suspended particulate matter which, because of its high oxygen demand, will disturb the natural ecology of such waterways. These suspended particles are generally too fine to be removed by most filter beds and tend to rapidly clog filtering apparatus that would otherwise be capable of removing them from solution. I-Ieretofore, filtering arrangements have been known which have employed activated carbon or diatomaceous earth in removing particulate material at into closed tank 6 through pipe 4. While the dimensions of the-tank may be varied to suit particular installations, it is envisioned that a 3 feet diameter tank, approximately 5 feet tall would contain sufficient volume the third stage of water purification processes, but the 7 remove the residual oils retained in the dried ink of the newsprint, by further grinding the cleaned and scorched newsprint to a particle size that will pass through a 400 mesh screen and by then introducing this processed newsprint into the sewer water at the rate of approximately 100 to 200 pounds to one million gallons of domestic sewage, containing approximately 250 parts per million biological oxygen demand particles (p.p.m. B.O.D.s), that 95 percent of such B.O.D-.s will be removed at a rate sufficient to meet the practical demands of a functioning municipal sewage disposal system.

The foregoing and other objects and features will become apparent from the ensuing description and drawing, the single FIGURE of which depicts a filtering apparatus for purifying water by employing the processed newsprint of the present invention.

DESCRIPTION OF TERTIARY F ILTERING APPARATUS Referring now to the drawing, there is shown a tertiary filtering unit constructed according to the present invention. Water which has undergone primary and secondary treatment, i.e., which has been passed through a settling tank and a stone filter bed, is pumped to process approximately 1,200 gallons per hour or 28,800 gallons per day of domestic sewage. Where a greater throughput of sewage is needed, it will be apparent that larger units may be employed, or alternatively, a number of small units may be utilized in tandem. Processed waste newsprint is introduced into pipe 4 via a feed line 5 and the mixture of water to be treated and a slurry of processed newsprint under the force imparted by the pump 7 enters tank 6.

The correct proportion of newsprint to sewer water is established by regulating the rotational speed of a proportionating wheel (not shown) of proportionator 3 whose buckets-scoop up the newsprint from the hopper 3a. The use of such a proportionator for introducing powdered material into a liquid stream being well known, it will not be described herein. I have found that a proportion of to 200 pounds of processed newsprint per million gallons of influent has been satisfactory in accomplishing the desired purification of domestic sewage. A correspondingly greater amount of processed newsprint is needed to purify industrial sewage in which the BOD. content is higher. As will be apparent to those skilled in the art, the desired degree of purification may be verified by taking a sample of the water after it has been passed through the filtering apparatus, and making a conventional culture test.

Within tank 6 there is a central core 10 which may be in the form of a wire screen or perforated cylinder of suitable corrosion-resistant material, such as stainless steel. The central core or screen, in one illustrative embodiment, may have A inch square or round apertures. Positioned externally-to the central core is a filter media 12 which advantageously may be formed from a roll of felted filter material having a thickness of approximately one-fourth inch and having a porosity which is adapted to pass approximately 25 cubic feet per minute of air per square foot at a pressure of 8 ounces per square inch or, what is the same thing, 50 gallons of water per hour per square foot. Material having these properties may be of wool, orlon, or teflon felt and is available from many manufacturers, including the American Felt Company. The pressure of the water in the tank causes penetration of the filter media and central core, and the water enters discharge funnel 14, from which the effluent may be discharged into a river or stream.

The action of the processed powdered newsprint is such that it will remove suspended solids and organic materials from the influent, such materials depositing themselves on the surface 15 of filter media 12. The build-up of the deposit on surface 15 increases the pressure differential between the liquid in the outer portion 6a of tank 6 and that within the discharge funnel 14. Pressure sensing device 20, which advantageously may be set to respond when the pressure differential reaches 10 pounds per square inch, provides a signal to control panel 21. Control panel 21, responding to the signal from pressure probe 20, shuts valve 30, preventing the discharge of effluent from funnel 14, opens valve 31 in veritable cleaning line 27, and

sets drive motor 22 into operation. Drive motor 22, via drive train 23, causes cleaning scraper ring 25 to commence travelling along the outside of filter media 12 to clean the surface 15 of the deposits, causing the detected pressure differential. Cleaning ring is advantageously fabricated to be in the form of a hollow toroid with apertures or slots 26 on its inner circumference. The deposits enter the apertures 26 of cleaning ring 25 and are carried away through cleaning line 27 to a digesting tank (not shown).

The cleaning action of ring 25 will thus be observed to be unique in that it cleans the external surface 15 of the filter media under the back pressure of the already filtered water which is inside the central core. This cleaner water in the central core, which is under approximately l0 pounds pressure, finds a vent to the atmosphere through open valve 31 over a path which is travelled in the direction from the inside of the central core through the filter media, the apertures 26 of the cleaning ring 25, and the cleaning line 27 to the digesting tank which is at atmospheric pressure.

When surface 15 has been cleaned, valve 31 is closed, valve is opened, and drive motor 22 is deenergized by control panel 21. As will be apparent, the cleaning operation may be terminated after the ring has been caused to pass over the entire length of the filter media 12, either once or as many times as is found desirable under given operating conditions. By suitable connection (not shown) to control panel 21, a conventional limit switch 33 may advantageously be employed to reverse the direction in which cleaning ring 25 is driven by drive motor 22 when the ring has traversed the length of the surface 15.

MANNER OF PROCESSING WASTE NEWSPRINT The powdered newsprint, which has been found efficacious in cleaning sewer'water having biological 0x 7 mill of conventional design to afineness that will pass through a 75-80 mesh screen. The material which passes through this screen is' then subjected to a perchloroethylene bath to remove the residual oils which are customarily employed in manufacturing the printers ink which is on the newspaper. In this regard it is important to appreciate that the present invention, in one of its aspects, requires waste newsprint which has actually been printed upon. This is because it is believed that certain of the chemicals, albeit in small proportion, that are found in the printers ink, and also those chemicals which are found in the type of paper customarily used as newsprint, are efficacious in v chemically attacking the suspended B.O.D.s. For example, in bleaching the newsprint so that it is sufficiently white to be acceptable for newspaper purposes, there is caused to remainapproximately 5 parts per million of chlorine in the paper. In the printers ink there also may be of the order of 3 parts per'million of iron chloride which also is believed to play a part in the oxidation and precipitation of the suspended B.O.D.s in the sewer water. There is also a certain amount of residual oil in the printers ink, but it is absolutely essential that this oil be removed as otherwise the powdered newsprint will form a colloid with the suspended B.O.D.s and prevent their precipitation on the surface 15 of the filter media 12. Accordingly, the powdered newsprint passing through the -80 mesh screen is washed with perchloroethylene to remove this trace of oil from the printers ink.

The powdered, de-oiled newsprint is then scorched to a brown or cocoa color, advantageously, in a rotary kiln of the type similar to that employed in calcining. The scorching opens the fibers of the powdered newsprint and provides a degree of activated carbonization. However, the carbonization cannot be allowed to progress too far or the iron chloride and chlorine traces mentioned previously will be destroyed. Scorching is also essential so that the next grinding process can proceed to the desired degree of fineness. The second grinding process which is now carried on is also performed in a hammer mill and is continued until the newsprint will pass through a 400 mesh screen. The material passing through the 400 mesh screen is then suitable for mixing with the sewer influent as described above. 7 I

The foregoing is descriptive of the illustrative embodiment and process of the present invention. Numerous modifications thereof will be apparent to those skilled in the art without departing from the spirit and scope of the invention.-

1 claim: 1. Apparatus for filtering a liquid of biological oxygen demand particles comprising means for mixing said 7 liquid with processed newsprint,

an enclosure having an inlet for receiving said liquid under pressure and an outlet for discharging said liquid, v

a filter interposed between said inlet and said outlet in said enclosure, said filter having a cylindrical fluid receiving surface exposed to said inlet,

means for cleaning said filter including a ventable line, an apertured toroidal scraper connected to said ventable line, means for sensing the pressure differential of said liquid between said inlet and said outlet, first means controlled by said pressure sensing means for driving said toroidal scraper over the cylindrical fluid receiving surface thereof, second means controlled by said sensing means for restricting the flow of said liquid from said inlet to said outlet, and third means controlled by said sensing means for venting said ventable line periodically to provide a reverse flow path for said liquid on the outlet side of filter back through said filter and said apertured scraper to said ventable line. i 

1. Apparatus for filtering a liquid of biological oxygen demand particles comprising means for mixing said liquid with processed newsprint, an enclosure having an inlet for receiving said liquid under pressure and an outlet for discharging said liquid, a filter interposed between said inlet and said outlet in said enclosure, said filter having a cylindrical fluid receiving surface exposed to said inlet, means for cleaning said filter including a ventable line, an apertured toroidal scraper connected to said ventable line, means for sensing the pressure differential of said liquid between said inlet and said outlet, first means controlled by said pressure sensing means for driving said toroidal scraper over the cylindrical fluid receiving surface thereof, second means controlled by said sensing means for restricting the flow of said liquid from said inlet to said outlet, and third means controlled by said sensing means for venting said ventable line periodically to provide a reverse flow path for said liquid on the outlet side of filter back through said filter and said apertured scraper to said ventable line. 